Chapter 2.1-2.3 What are Plants? PDF

Summary

This document provides an overview of plant biology, covering plant origins, characteristics of life, diverse plant structures, and plant classification. It includes information about vegetative and reproductive organs, with examples of various plant types.

Full Transcript

Chapter 2.
What are Plants?
Prepared by: AMLlorando
What are
Plants?
 2.1 Origin of Plants
Life on Earth began about 3.5 billion years ago with
prokaryotes (bacteria and archaeans).
− Photosynthesis arose 2.8 billion years ago in a
cyanobacterium.
Organelles evolved followed by division of labor and
specialization.
− DNA became located in its own organelle, the cell
nucleus.
− Development of organelles was followed by division of
labor and specialization.
− Eukaryotes have nuclei (plants, fungi, animals, algae).
 2.1 Origin of Plants
Eukaryotes diversified, some gaining mitochondria and some
gaining chloroplasts (via endosymbiosis).

✓ Those with mitochondria evolved into protozoans, fungi,
and animals.
✓ Those with mitochondria and chloroplasts evolved into
plants and algae.

All organisms fit into three large groups called domains:
Bacteria, Archaea, and Eukarya.
 2.1 Origin of Plants
Over 297,000 plant species exist today; wide
diversity of adaptation is important.
For any aspect of the environment, many types of
adaptation are possible.
– There is no single, perfect adaptation.
– There are alternative adaptations.
– There are ways of coping with different
environments and the multitude of factors
within them.
 2.2 Characteristics of Life

Cells
Homeostasis
Reproduction
Metabolism
DNA/ Heredity
Growth & Development
 2.3 Characteristics of Life

Cells
Basic unit of life
Living things
have one or
more
Microscopic
 2.2 Characteristics of Life

Homeostasis
maintenance of a
relatively stable
internal
environment.
Examples: Body
temp., oxygen level,
blood sugar level,
pH, water level.
 2.2 Characteristics of Life

Reproduction
process by which
living things give
rise to offspring.

May be simple or
complex
 2.2 Characteristics of Life

Metabolism
ability to obtain and
use energy for growth
and movement.

Examples: Cellular
Respiration,
Photosynthesis
 2.2 Characteristics of Life

DNA/ Heredity
Genetic material that is
passed on during
reproduction.

DNA & RNA tell each
cell what and how to
make proteins.
 2.2 Characteristics of Life

Growth & Development
▪ permanent or irreversible or morphogenesis refers to
increase in size the ordered change or
process in plants
▪ Accompanied with cell
differentiation and Series of discrete events;
development degree of response such as
percentage germination
▪ Measured in terms of
increase in length, height,
width, volume or number
 2.3 Overview of Plant
Structures
Vegetative Organs
Stems, roots, and leaves
− Leaves harvest energy from the sun and
package it into the sugar called glucose.
− Roots obtain minerals and other nutrients.
− Stems bear leaves.
Vegetative organs do not carry out sexual
reproduction.
 2.3 Overview of Plant
Structures
STEMS
Almost all stems bear
leaves that are attached
at regions called nodes.

Axillary buds, just above
the nodes, can become
branches or flowers.
 2.3 Overview of Plant
Structures
ROOTS
Almost always
confined to one end
of the stem.

Can emerge along a
stem, as in ivy that
climbs on trees and
fences.
English ivy (Hedera helix)
 Golden Pothos
(Epipremnum aureum)
 2.3 Overview of Plant
Structures
LEAVES
flattened green
outgrowth from the
stem of a vascular
plant.
Primary site of
photosynthesis
Varies in size
 Largest leaf
6-10 ft high,
14 ft wide
Gunnera
manicata
 Longest leaf (~52 ft)
Raphia regalis
 Largest waterlily (4 to 6 ft)
Victoria amazonica
 2.3 Overview of Plant
Structures
Reproductive Organs
In ferns, these are barely distinguishable
from vegetative organs.
Conifers make seed cones and pollen
cones.
Angiosperms make flowers.
 2.3 Overview of Plant
Structures
Ferns
The reproductive organs of ferns are basically just
foliage leaves that produce sporangia on their
underside.
 2.3 Overview of Plant
Conifers Structures
Conifers make seed cones and
pollen cones.

When the seeds are mature, the
cone will expand enough to cause
the scales to separate and allow the
seeds to fall out.

Seed cones: Female
Pollen cones: Male
(Both grow on the same tree)
 2.3 Overview of Plant
Structures
Angiosperms
Flower-bearing plants.
have their seeds enclosed in a
fruit
vascular seed plants in which
the ovule (egg) is fertilized and
develops into a seed in an
enclosed hollow ovary.
ovary itself is usually enclosed in
a flower
 References

Mauseth, James D. An Introduction to Plant Biology. Sixth Edition
Shipunov, Alexey. Introduction to Botany. June 7, 2021 version. 192 pp. URL:

BioExplorer.net. (2023). Types of Plants: The Four Major Classifications of
Plants. Bio Explorer. https://www.bioexplorer.net/plants/.
 Up next..
Continuation: 2.4 Plant Classification
Chapter 3: The Plant Cell
 Botany lab
Bring the following per group:

Unpeeled Red onion (Allium cepa)
Hydrilla verticillata sprig
Macerated Potato (Solanum tuberosum)
Macerated Corn (Zea mays)
Macerated Gabi (Colocasia esculenta)
San Francisco leaf
Mayana leaf
Ripe tomato
Sharp Blade
Tissue
Alcohol
Dropper
Glass slide
Cover slip